CN207325710U - Composite die - Google Patents
Composite die Download PDFInfo
- Publication number
- CN207325710U CN207325710U CN201721359389.4U CN201721359389U CN207325710U CN 207325710 U CN207325710 U CN 207325710U CN 201721359389 U CN201721359389 U CN 201721359389U CN 207325710 U CN207325710 U CN 207325710U
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- China
- Prior art keywords
- module
- lower die
- material strip
- finished product
- sleeve
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
A kind of mould is the utility model is related to, discloses a kind of composite die.In the utility model, composite die is used for support material strip comprising lower die module;Move in the direction that de- material module is used for towards lower die module;Upper cutting module, is used to move along a straight line towards or away from the direction of lower die module under external force in de- material module;When lower cutting module is used to be moved in the direction of upper cutting module towards lower die module, cooperates with upper cutting module and finished product is cut out on material strip;The finished product that pipeline is used to be cut out is together with web feed to designated position;When finished product separating mechanism is used to be moved in the direction of de- material module towards lower die module, the finished product for being currently transported to designated position is gradually disengaged from material strip.Compared with prior art so that material strip completes material strip on a mould and cuts and separate the product after cutting from material strip, and use is more convenient, and mould overall structure reduces, and reduces die cost.
Description
Technical field
A kind of mould is the utility model is related to, more particularly to a kind of composite die.
Background technology
Currently on the market in order to cut out the finished product of needs from material strip, usually using two mold of compound die and the progressive die
With the use of a whole set of process task of completion.Wherein, compound die is mainly used for being cut material strip, and the progressive die is mainly by well cutting
Finished product taken out from material strip.Compound die is mainly comprising de- material module, lower die module, the upper cutting mould being arranged in de- material module
Block and the lower cutting module being arranged in lower die module, upper cutting module and lower cutting module are engaged and are cut material strip,
De- material module and upper cutting module leave lower die module after material cutting is complete, and the finished product under cutting is generally aligned in the same plane with material strip
On, finished product can not depart from from material strip.Therefore, finished product to be taken out from material strip, it is necessary to by the material strip cut and finished product one
Rise and be sent on the progressive die, separated from material strip finished product by the push rod on the progressive die or handgrip.
But inventor has found, the finished product cut on material strip is being separated from material strip, it is necessary to reuse continuous
Mould could be completed, and the mould volume of two moulds is larger, and mould production cost is higher.
Utility model content
The purpose of this utility model is to provide a kind of composite die so that completion material strip cuts and will on a mould
Product after cutting is separated from material strip, and use is more convenient, and mould overall structure reduces, and reduces die cost.
In order to solve the above technical problems, the embodiment of the utility model provides a kind of composite die, comprising:
Lower die module, for support material strip;
De- material module, positioned at the top of the lower die module, for being moved towards the direction of the lower die module, and is being transported
Move to during extreme position and fix the material strip with lower die module cooperation;
Upper cutting module, is slidably disposed in the de- material module, under external force towards or away from institute
The direction for stating lower die module carries out linear slide;
Lower cutting module, is arranged in the lower die module, for cutting module on described towards the lower die module
Direction when being moved, cooperate with the upper cutting module and cut finished product on the material strip;
Pipeline, for by the finished product being cut out together with the web feed to designated position;
Finished product separating mechanism, is arranged on the transport path of the material strip, in the upper mold module towards under described
When the direction of mould module is moved, the finished product for being currently transported to designated position is gradually disengaged from the material strip.
The utility model embodiment in terms of existing technologies, due to equipped with lower die module, de- material module, upper cutting
Module, lower cutting module, pipeline and finished product separating mechanism, lower die module support material strip, de- material module are located in lower die module
Side, de- material module coordinate with lower die module to lower die block motion and fix material strip, upper cutting module and de- material module are slidably
Set, lower cutting module is arranged in lower die module, and de- material module is engaged with lower die module and fixes material strip, upper cutting module
The lower module that cuts is coordinated to cut out finished product on material strip under external force, after cutting, upper cutting module and lower cutting mould
Block separates, and de- material module is separated with lower die module, and finished product and material strip are transported to designated position, finished product seperator by pipeline together
Structure separates finished product from material strip.Material strip is cut so as to fulfill on same mould, and allows finished product to be separated from material strip
Out, and same mould is used, reduces the overall structure of mould, reduce the production cost of mold body.
In addition, the finished product separating mechanism includes:
Boss, is arranged in the lower die module, and at least partly externally protrudes out in the lower die module, for support by institute
State the finished product that pipeline is transported to the designated position;
Sleeve, is slidably connected with the lower die module, and carries out empty set to the boss and be used for material strip described in support;It is described
The glide direction of sleeve is identical with the direction of motion of the de- material module;
Component is sprung back, is arranged in the lower die module, for propping up the sleeve;
Wherein, the de- material module is used to press the sleeve when the direction towards the lower die module is moved,
And the de- material module is additionally operable to when moving to the extreme position, the sleeve is completely forced into the lower die module,
And the sleeve is used to compress the rebound component when entering in the lower die module.So as to which finished product is separated from material strip
Out, and by boss support finished product is lived, when the product of being positioned to spin off, finished surface out-of-flatness, influences the use of finished product later stage.
In addition, the rebound component includes:
Supporting plate, is slidably disposed in the lower die module, for sleeve described in support;
Resilience part, is arranged in the lower die module, and for propping up the supporting plate;
Wherein, glide direction of the supporting plate in the lower die module is identical with the glide direction of the sleeve.From
And after finished product is by going out, sleeve is returned back to original position by the supporting plate that rebounds.
In addition, the composite die also includes:
Upper mold module, positioned at the top of the de- material module, and for driving the upper cutting module towards or away from institute
The direction for stating lower die module moves along a straight line;
Wherein, free gap is formed between the upper mold module and the de- material module, and the free gap is used for institute
The direction for stating cutting module towards or away from the lower die module moves along a straight line.
In addition, the upper mold module includes:
Upper mold body, is fixedly connected with the upper cutting module, and positioned at the top of the de- material module and the de- material
It is spaced from each other to form the free gap between module;
Component is sprung back, is installed in the top of the upper mold body, and be fixedly connected with the upper mold body.So as to upper calligraphy or painting model
Body, which provides cutting module pressure, makes cutting module push down material strip, allows lower die module to cut material strip, makes cutting for material strip
Mouth is more smooth.
In addition, the lower die module includes:
Lower mould body, for material strip described in support;
Objective table, is slidably disposed in the lower mould body;
Support component is sprung back, partially passes through the lower mould body, and is fixedly connected with the objective table, for by described in
The table top of objective table ejects the lower mould body;
Wherein, the lower cutting module is installed in the lower mould body, and for through the objective table, and with it is described
Objective table is slidably matched, and the lower cutting module also partly exposes to the lower mould body and is used for and the upper cutting module
Cooperation cuts the material strip.Material strip is cut so as to coordinate with upper mold body, and after cutting, objective table can
Recover to home position.
In addition, the composite die also includes:
Blowning installation, is arranged in the de- material module and is used to the finished product isolated from the material strip blowing out institute
State lower die module.So as to be blown off lower die module by the finished product of boss support.
Brief description of the drawings
Fig. 1 is the structure diagram of composite die in the utility model first embodiment;
Fig. 2 is composite die blank and view when finished product is ejected in the utility model first embodiment;
Fig. 3 is the structure diagram of composite die in the utility model first embodiment.
Embodiment
It is new to this practicality below in conjunction with attached drawing to make the purpose of this utility model, technical solution and advantage clearer
Each embodiment of type is explained in detail.It is however, it will be understood by those skilled in the art that each in the utility model
In embodiment, many ins and outs are proposed in order to make reader more fully understand the application.But even if without these skills
Art details and many variations based on following embodiment and modification, can also realize that each claim of the application is required and protect
The technical solution of shield.
The first embodiment of the utility model is related to a kind of composite die.As depicted in figs. 1 and 2, composite die includes
Lower die module 1, de- material module 2, upper cutting module 3, lower cutting module 4, pipeline (not shown) and finished product separating mechanism.
Lower die module 1 is used for support material strip 10, and de- material module 2 is located at the top of lower die module 1, and is transported towards the direction of lower die module 1
It is dynamic, and coordinate fixed material strip 10 with lower die module 1 when moving to extreme position.Upper cutting module 3 is slidably disposed on de-
Expect in module 2, for carrying out linear slide towards or away from the direction of lower die module 1 under external force.Lower cutting module 4 is set
Put in lower die module 1, for it is upper cutting module 3 towards lower die module 1 direction moved when, with it is upper cutting module 3
Mutual cooperation cuts finished product 20 on material strip 10.Pipeline is used to the finished product 20 being cut out being delivered to together with material strip 10 specified
Position.20 separating mechanism of finished product is arranged on the transport path of material strip 10, in upper mold module towards the direction of lower die module 1
When being moved, the finished product 20 for being currently transported to designated position is gradually disengaged from material strip 10.
The utility model embodiment in terms of existing technologies, due to equipped with lower die module 1, de- material module 2, upper sanction
Cut-off-die block 3, lower cutting 20 separating mechanism of module 4, pipeline and finished product, 1 support material strip 10 of lower die module, de- material module 2 are located at
The top of lower die module 1, de- material module 2 are moved to lower die module 1, are coordinated with lower die module 1 and are fixed material strip 10, upper cutting module
3 are slidably set with de- material module 2, and lower cutting module 4 is arranged in lower die module 1, and de- material module 2 matches with lower die module 1
Material strip 10 is fixed in conjunction, and upper cutting module 3 coordinates lower cutting module 4 to cut out finished product 20 on material strip 10 under external force,
After cutting, upper cutting module 3 is separated with the lower module 4 that cuts, and de- material module 2 is separated with lower die module 1, and pipeline is by finished product
20 and material strip 10 be transported to designated position together, 20 separating mechanism of finished product separates finished product 20 from material strip 10.And finished product
20 separating mechanisms separate finished product 20 at the same time from material strip 10, positioned at upper cutting module 3 and the lower material strip cut at module 4
10 are tailored out finished product 20.Material strip 10 is cut so as to fulfill on same mould, and allows finished product 20 to be isolated from material strip 10
Come, and use same mould, reduce the overall structure of mould, reduce the production cost of mold body.
Further, as depicted in figs. 1 and 2,20 separating mechanism of finished product includes boss 5, sleeve 6, rebound component 7.Boss 5
It is arranged in lower die module 1, and at least partly externally protrudes out in lower die module 1, designated position is transported to by pipeline for support
Finished product 20.Sleeve 6 is slidably connected with lower die module 1, and carries out empty set to boss 5 and be used for support material strip 10.And the cunning of sleeve 6
Dynamic direction is identical with the direction of motion of de- material module 2.Rebound component 7 is used to prop up sleeve 6, and is arranged in lower die module 1.It is de-
Expect that module 2 is used to press sleeve 6 when the direction towards lower die module 1 is moved, and de- material module 2 is additionally operable to moving to
During extreme position, sleeve 6 is completely forced into lower die module 1, and the compression rebound component when entering in lower die module 1 of sleeve 6
7.When de- material module 2 moves to extreme position, sleeve 6 is pressed into lower die module 1 completely, is not cut on sleeve 6
Material strip 10 coordinates fixation by de- material module 2 and lower die module 1, and finished product 20 is still located on boss 5, is ejected by boss 5.Finished product 20 pushes up
After going out, de- material module 2 is separated with lower die module 1, and sleeve 6 is pushed up go back to original position by rebound component 7, is sleeved on boss 5.
In addition, as depicted in figs. 1 and 2, rebound component 7 includes supporting plate 71 and resilience part 72, and resilience part 72 can
For spring.Supporting plate 71 is slidably disposed in lower die module 1, support sleeve 6.Resilience part 72 is arranged on lower die module 1
It is interior and for propping up supporting plate 71.Glide direction of the supporting plate 71 in lower die module 1 is identical with the glide direction of sleeve 6.From
And after finished product 20 is by going out, sleeve 6 is returned back to original position by the supporting plate 71 that rebounds.
Further, as depicted in figs. 1 and 2, composite die also includes upper mold module 8, and upper mold module 8 is located at de- material module
2 top, and for driving the direction of cutting module 3 towards or away from lower die module 1 to move along a straight line.Upper mold module 8
Free gap is formed between de- material module 2, and free gap is used for upper cutting module 3 towards or away from the side of lower die module 1
To moving along a straight line.Upper mold module 8 includes upper mold body 81 and rebound component 82, and upper mold body 81 and upper cutting module 3 are solid
Fixed connection, and be spaced from each other to form free gap between the top of de- material module 2 and de- material module 2.It is solid to spring back component 82
The top of upper mold body 81 is located at, and is fixedly connected with upper mold body 81.And rebound component 82 by spring 821 and with spring 821
Connected 822 phase of supporting block is fixed, and spring 821 is fixed with upper mold body 81, and upper cutting module 3 offsets with supporting block 822.So as to
Upper mold body 81, which provides cutting 3 pressure of module, makes cutting module 3 push down material strip 10, allows lower die module 1 to carry out material strip 10
Cut, make the notch of material strip 10 more smooth.
It is more worth integral, in the present embodiment, as depicted in figs. 1 and 2, lower die module 1 include lower mould body 11,
Objective table 12 and rebound support component 13.Lower mould body 11 is used for support material strip 10, and objective table 12 is slidably disposed on lower die
In body 11.Rebound support component 13 partially passes through lower mould body 11, and is fixedly connected with objective table 12, for by objective table
The 12 lower mould body 11 of table top ejection.Lower cutting module 4 is installed in lower mould body 11, and is used for through objective table 12, and with
Objective table 12 is slidably matched, and lower cutting module 4 also partly exposes to lower mould body 11 and is used for and upper cutting module 3 cooperation pair
Material strip 10 is cut.Rebound support component 13 includes spring 131 and the support plate 132 to offset with spring 131, support plate 132
It is fixedly connected with objective table 12, de- material module 2 is separated with lower die module 1, and spring 131 withstands support plate 132 by 12 bullet of objective table
Go out.
The second embodiment of the utility model is related to a kind of composite die, is further changing to first embodiment
Into in present embodiment, as shown in figure 3, composite die also includes blowning installation 9, blowning installation 9 can be electric fan.It is arranged on
It is used to the finished product 20 isolated from material strip 10 blowing out lower die module 1 in de- material module 2.When de- material module 2 will be complete by sleeve 6
When total head is entered in lower die module 1,5 support finished product 20 of boss is exposed, and blowning installation 9 blows off finished product 20 boss 5.
It will be understood by those skilled in the art that the respective embodiments described above are to realize the specific implementation of the utility model
Example, and in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit of the utility model
And scope.
Claims (7)
1. a kind of composite die, it is characterised in that include:
Lower die module, for support material strip;
De- material module, positioned at the top of the lower die module, for being moved towards the direction of the lower die module, and is moving to
Coordinate the fixed material strip during extreme position with the lower die module;
Upper cutting module, in the de- material module, under external force towards or away from the side of the lower die module
To moving along a straight line;
Lower cutting module, is arranged in the lower die module, for cutting module on described towards the side of the lower die module
To when being moved, cooperate with the upper cutting module and cut out finished product on the material strip;
Pipeline, for by the finished product being cut out together with the web feed to designated position;
Finished product separating mechanism, is arranged on the transport path of the material strip, in the de- material module towards the lower die mould
When the direction of block is moved, the finished product for being currently transported to the designated position is gradually disengaged from the material strip.
2. composite die according to claim 1, it is characterised in that:The finished product separating mechanism includes:
Boss, is arranged in the lower die module, and at least partly externally protrudes out in the lower die module, for support by described defeated
Line sending is transported to the finished product of the designated position;
Sleeve, is slidably connected with the lower die module, and carries out empty set to the boss and be used for material strip described in support;The sleeve
Glide direction it is identical with the direction of motion of the de- material module;
Component is sprung back, is arranged in the lower die module, for propping up the sleeve;
Wherein, the de- material module is used to press the sleeve, and institute when the direction towards the lower die module is moved
State de- material module to be additionally operable to when moving to the extreme position, the sleeve is completely forced into the lower die module, and institute
Sleeve is stated to be used to compress the rebound component when entering in the lower die module.
3. composite die according to claim 2, it is characterised in that:The rebound component includes:
Supporting plate, is slidably disposed in the lower die module, for sleeve described in support;
Resilience part, is arranged in the lower die module, and for propping up the supporting plate;
Wherein, glide direction of the supporting plate in the lower die module is identical with the glide direction of the sleeve.
4. composite die according to claim 1, it is characterised in that:The composite die also includes:
Upper mold module, positioned at the top of the de- material module, and for driving the upper cutting module towards or away under described
The direction of mould module moves along a straight line;
Wherein, free gap is formed between the upper mold module and the de- material module, and the free gap is for described
The direction for cutting module towards or away from the lower die module moves along a straight line.
5. composite die according to claim 4, it is characterised in that:The upper mold module includes:
Upper mold body, is fixedly connected with the upper cutting module, and positioned at the top of the de- material module and the de- material module
Between be spaced from each other to form the free gap;
Component is sprung back, is installed in the top of the upper mold body, and be fixedly connected with the upper mold body.
6. composite die according to claim 1, it is characterised in that:The lower die module includes:
Lower mould body, for material strip described in support;
Objective table, is slidably disposed in the lower mould body;
Support component is sprung back, partially passes through the lower mould body, and be fixedly connected with the objective table, for by the loading
The table top of platform ejects the lower mould body;
Wherein, the lower cutting module is installed in the lower mould body, and for through the objective table, and with the loading
Platform is slidably matched, and the lower cutting module also partly exposes to the lower mould body and is used to coordinate with the upper cutting module
The material strip is cut.
7. composite die according to claim 1, it is characterised in that:The composite die also includes:
Blowning installation, be arranged in the de- material module be used for will be isolated from the material strip the finished product blowout it is described under
Mould module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721359389.4U CN207325710U (en) | 2017-10-20 | 2017-10-20 | Composite die |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201721359389.4U CN207325710U (en) | 2017-10-20 | 2017-10-20 | Composite die |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN207325710U true CN207325710U (en) | 2018-05-08 |
Family
ID=62365384
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201721359389.4U Expired - Fee Related CN207325710U (en) | 2017-10-20 | 2017-10-20 | Composite die |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN207325710U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| AU2019200322B2 (en) * | 2018-05-23 | 2019-03-28 | Jiangshan Hongli Product Design Co., Ltd. | A Tableware Production Apparatus |
-
2017
- 2017-10-20 CN CN201721359389.4U patent/CN207325710U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| AU2019200322B2 (en) * | 2018-05-23 | 2019-03-28 | Jiangshan Hongli Product Design Co., Ltd. | A Tableware Production Apparatus |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180508 Termination date: 20201020 |